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Showing 1–5 of 5 results

Advanced filters: Author: Sung-Ik Cho Clear advanced filters

Nuclear and mitochondrial DNA editing in human cells with zinc finger deaminases

Base editing in nuclear DNA and mitochondrial DNA (mtDNA) is broadly useful for biomedical research, medicine, and biotechnology. Here the authors present zinc finger deaminases which catalyze targeted C-to-T base conversions without inducing unwanted indels in human cells.

Kayeong Lim
Sung-Ik Cho
Jin-Soo Kim
ResearchOpen Access18 Jan 2022
Nature Communications

Volume: 13, P: 1-10
Targeted A-to-G base editing of chloroplast DNA in plants

Plant-optimized transcription activator-like effector-linked deaminases enable site-specific A-to-G base editing in the chloroplast genome, leading to heritable homoplasmic base conversions and phenotypic changes.

Young Geun Mok
Sunghyun Hong
Jin-Soo Kim
ResearchOpen Access01 Dec 2022
Nature Plants

Volume: 8, P: 1378-1384
Prime editing with genuine Cas9 nickases minimizes unwanted indels

Cas9 nickases (nCas9s) produce nicks or single-strand breaks in the DNA. Here the authors analyse the on- and off-target nicks generated by these nickases, and show that nCas9 (H840A) but not nCas9 (D10A) can cleave both strands and produce unwanted DNA double-strand breaks.

Jaesuk Lee
Kayeong Lim
Jin-Soo Kim
ResearchOpen Access30 Mar 2023
Nature Communications

Volume: 14, P: 1-11
Base editing in human cells with monomeric DddA-TALE fusion deaminases

Monomeric DdCBEs (mDdCBEs), enabling mitochondrial DNA editing with high efficiencies of up to 50%, when transiently expressed in cultured human cells and nearly homoplasmic C-to-T editing via AAV.

Young Geun Mok
Ji Min Lee
Jin-Soo Kim
ResearchOpen Access12 Jul 2022
Nature Communications

Volume: 13, P: 1-10
Genome-wide target specificity of CRISPR RNA-guided adenine base editors

Unbiased detection of off-target editing by adenine base editors in vitro uncovers differences in the specificity patterns of adenine and cytosine base editors, and of unmodified Cas9.

Daesik Kim
Da-eun Kim
Jin-Soo Kim
Research04 Mar 2019
Nature Biotechnology

Volume: 37, P: 430-435